RU98434U1 - EARTHFORRING SOIL DEVICE - Google Patents

Abstract

 1. Dredger suction device, including a suction pipe; a soil receiver, made in the form of fan-shaped suction nozzles with suction mouths mounted on the end of the suction pipe; soil hydraulic ripper, characterized in that the soil hydraulic ripper is made in the form of several hydraulic monitors equipped with nozzles for transporting soil directed towards the suction pharynx; nozzles for loosening the soil, directed towards the bottom; frontal nozzles directed forward in the direction of movement along the trench. ! 2. The suction device of the dredger according to claim 1, characterized in that the hydraulic monitors are equipped with lateral erosion nozzles.

Description

The proposed utility model relates to dredging equipment and can be used on dredgers designed for the development of sand and sand and gravel soils in a trench method to deepen waterways.

Known suction tip of the soil intake device, designed for a trench dredger, made with a slit-like mouth shape and equipped with a hydraulic ripper and an external safety grill (Krakowski I.I. Vessels of the technical fleet. - L .: Shipbuilding, 1968, p.135-136). The disadvantage of this slit-like tip is the low speed of the development of rifts due to the need to extract a significant amount of useless soil due to over-deepening to obtain the design bottom mark, as well as the impossibility of the dredger working on rifts with a depth less than the dredger’s draft, and when laying channels.

Known suction device dredger with several suction nozzles mounted on the intake end of the suction pipe and fan-shaped in one plane (AS USSR No. 178749, class E02F 3/92, 1964). A disadvantage of the known soil sampling device is the low speed of development of rifts and the inability to obtain evenness of the bottom.

A dredger suction device is also known, including a suction pipe; a soil receiver made in the form of fan-shaped suction nozzles with suction mouths mounted on the end of the suction pipe; soil hydraulic ripper with frontal nozzles (AS USSR No. 998673, class E02F 3/88, 1980). Known soil picking device is able to develop the bottom simultaneously with several parallel trenches, which increases the speed of development of the roll. However, the disadvantage of the known soil sampling device is the low consistency of the sucked-in water-soil mixture, since the hydromaking is carried out by jets of water flowing from the front nozzles, which push the soil out of the suction zone. This reduces the performance of the soil pickup device.

The proposed utility model solves the problem of increasing productivity of the development of fractures.

The technical result that can be obtained by solving the problem is to increase the consistency of the sucked-in water-ground mixture, which ensures an increase in the productivity and speed of trench development.

To solve the problem with the achievement of the specified technical result in a known dredging device of the dredger, including a suction pipe; a soil receiver made in the form of fan-shaped suction nozzles with suction mouths mounted on the end of the suction pipe; soil hydraulic ripper, according to the proposed utility model, the soil hydraulic ripper is made in the form of several hydraulic monitors equipped with nozzles for transporting soil directed towards the suction pharynx; nozzles for loosening the soil, directed towards the bottom; frontal nozzles directed forward in the direction of movement along the trench.

Additional design options for the dredger dredging device are possible, in which it is advisable that the hydraulic monitors are equipped with lateral erosion nozzles.

The indicated advantages, as well as the features of the proposed utility model, are explained by the variants of its implementation with reference to the drawings: Fig. 1 shows a side view of an intake device; in Fig. 2 - view A in Fig. 1 (option 1); figure 3 is a section bB in figure 1; figure 4 is a section bb in figure 1; figure 5 is a section GG in figure 3; figure 6 is a view of figure 1 (option 2); in Fig.7 is a view A in Fig.1 (option 3).

The suction device of the dredger includes a suction pipe 1; soil collector 2, made in the form of a fan-shaped mounted suction nozzles 3 with suction pharynx 4. The soil ripper is made in the form of several hydraulic monitors 5, equipped with nozzles 6 for transporting the soil, directed towards the suction pharynx 4. The hydraulic monitors 5 are also equipped with nozzles 7 for loosening the soil, directed towards the bottom. Hydromonitors 5 are installed on the nozzles 3 and are connected with them by rigid connections 8 with the formation of spatial structures. Hydromonitors are also equipped with side erosion nozzles 9 and front nozzles 10 and 11. The suction nozzles 3 can be straight (figure 2), or rounded (figure 6). The number of suction nozzles 3 can be three (Fig.2 and Fig.6), or two (Fig.7). Typically, two suction nozzles are used on small dredgers, and on large ones - three.

Dredging device dredger works as follows. Soil intake device is lowered into the water in the working position. At the same time, water flowing out of nozzles 6, 7, 9, 10 and 11 in the form of jets is supplied to the hydraulic monitors 5. The jets of nozzles 7 loosen the soil, creating around the nozzles 6 zone loosened soil. The jets from nozzles 6 transport soil from the zones of loosened soil to the suction pharynx 4, where the soil is sucked into the nozzles 3 and then into the suction pipe 1. The jets from the nozzles 9 provide lateral loosening and collapse of the side slopes of the trench. The jets from nozzles 10 and 11 provide frontal loosening and collapse of the soil slopes in front of the soil receiver, which makes it possible to move the soil sampling device forward along the trench.

Thanks to the installation of nozzles 6 and 7, a high saturation of the sucked-in water-ground mixture is ensured, since the nozzles 7 are located in the process of working under a layer of soil, creating diffusion zones of loosening the soil, characterized by high saturation. And nozzles 6 provide transportation of this soil to the suction zone. At the same time, the space between the suction pharynx 4 and nozzles 6 becomes an active absorption zone, which ensures the stability of the soil intake regardless of changing external conditions.

Side nozzles 9 loosen the soil along the edges of the trench, excluding the blockage of the soil receiver by collapsing soil from the side slopes. Collapsing soil is transported by nozzles 6 to the suction zone, thereby increasing the saturation of the sucked-in water-soil mixture. As the operating experience shows, it is advisable to install them at an angle of 15-90 ° to the vertical plane of the soil receiver.

The front nozzles 10 provide erosion of the soil in front of the soil receiver in the direction of its movement during the development of the trench, which makes it possible to move the soil receiver through the trench. Loosened by nozzles 10, the soil enters during the movement of the soil receiver through the trench to the nozzles 6, which transport it to the suction pharynx 4, which increases the productivity of the soil and the speed of development of the trench.

The front nozzles 11 provide erosion of the slopes in front of the soil receiver in the direction of its forward movement along the trench. Collapsing soil is also moved by nozzles 6 into the suction zone, which increases soil productivity and the speed of trench development. As the operating experience shows, it is advisable to install them at an angle of 0-60 ° to the horizontal plane of the soil receiver.

Nozzles 9 and 11 reduce the likelihood of collapse of slopes and blockage of the soil by the soil, thereby increasing the utilization rate of the soil sampling device in time and reducing the time of trench development.

Claims (2)

1. Dredger suction device, including a suction pipe; a soil receiver made in the form of fan-shaped suction nozzles with suction mouths mounted on the end of the suction pipe; soil hydraulic ripper, characterized in that the soil hydraulic ripper is made in the form of several hydraulic monitors equipped with nozzles for transporting soil directed towards the suction pharynx; nozzles for loosening the soil, directed towards the bottom; frontal nozzles directed forward in the direction of movement along the trench. 2. The suction device of the dredger according to claim 1, characterized in that the hydraulic monitors are equipped with lateral erosion nozzles.